Verfügbarkeit: Water use efficiency in plant biology

Water use efficiency in plant biology:

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Format:	Buch
Sprache:	English
Veröffentlicht:	Oxford [u.a.] Blackwell Publ. 2004 Boca Raton, Fla. [u.a.] CRC Pr.
Ausgabe:	1. publ.
Schriftenreihe:	Biological sciences series
Schlagworte:	Physiologie végétale Plantes - Absorption de l'eau Plantes - Transpiration Relations plante-eau Plant physiology Plant-water relationships Plants > Absorption of water Plants > Transpiration Effizienz Wassernutzung Ernteertrag Wasserversorgung Nutzpflanzen Wasserhaushalt Wasserbedarf Ertragsbildung Pflanzen Kulturpflanzen
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XIV, 327 S. graph. Darst.
ISBN:	1405114347 0849323541

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MARC


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Datensatz im Suchindex

_version_	1804133134280687616
adam_text	WATER USE EFFICIENCY IN PLANT BIOLOGY EDITED BY MARK A. BACON DEPARTMENT OF BIOLOGICAL SCIENCES UNIVERSITY OF LANCASTER, UK UNIVERSIUIFS- URA BIBLIOTHSK DZR. BLACKWELL PUBLISHING CRC PRESS CONTENTS CONTRIBUTORS XI PREFACE XIII 1 WATER USE EFFICIENCY IN PLANT BIOLOGY 1 MARK A. BACON 1.1 INTRODUCTION 1 1.1.1 THE GLOBAL PERSPECTIVE 1 1.1.2 DEFINITION OF WATER USE EFFICIENCY 2 1.1.3 HISTORICAL PERSPECTIVE 2 1.2 CARBON METABOLISM AND WUE 4 1.2.1 WUE AND THE REGULATION OF ASSIMILATION 4 1.2.2 PHOTOSYNTHETIC BIOCHEMISTRIES AND WUE 4 1.2.3 ISOTOPE DISCRIMINATION AND WUE 6 1.3 STOMATA AND WUE 9 1.4 LEAF GROWTH AND WUE * 11 1.5 ROOTS, HYDRAULIC CONDUCTIVITY AND WUE 12 1.6 UNCOVERING THE GENETIC BASIS TO WUE 15 1.7 ADAPTATIONS TO DROUGHT AND WATER USE EFFICIENCY 17 1.8 PHENOLOGY, THE ENVIRONMENT AND AGRONOMY 18 1.9 DELIVERING ENHANCED WUE INTO AGRICULTURE AND HORTICULTURE 19 1.9.1 DRYSDALE WHEAT 19 1.9.2 PARTIAL ROOTZONE DRYING 20 1.10 SUMMARY 22 REFERENCES 22 2 WHAT IS WATER USE EFFICIENCY? 27 HAMLYN JONES 2.1 INTRODUCTION 27 2.2 DROUGHT TOLERANCE AND THE IMPORTANCE OF WATER USE EFFICIENCY 27 2.3 DEFINITIONS OF WATER USE EFFICIENCY 29 2.3.1 INTRINSIC WATER USE EFFICIENCY 30 2.3.2 INSTANTANEOUS VERSUS INTEGRAL WATER USE EFFICIENCY 31 VI CONTENTS 2.4 VARIABILITY IN WUE 31 2.5 GAS EXCHANGE 34 2.5.1 PLANT-ATMOSPHERE COUPLING 35 2.5.2 INTEGRATION OVER TIME 36 2.6 METHODOLOGY 37 2.7 WATER USE EFFICIENCY AND PRODUCTIVITY 39 REFERENCES 40 3 WATER USE EFFICIENCY AND PHOTOSYNTHESIS 42 M.M. CHAVES, J. OSOR1O AND J.S. PEREIRA 3.1 INTRODUCTION 42 3.2 THE CARBON COMPROMISE 43 3.3 GENETIC AND ENVIRONMENTAL CONSTRAINTS TO A, G S , G W AND WUE 45 3.4 WUE IN PLANTS GROWING UNDER ELEVATED CO 2 IN THE ATMOSPHERE 50 3.5 TRADE-OFFS IN RESOURCE USE EFFICIENCIES - NITROGEN, RADIATION AND WATER 51 3.5.1 TRADE-OFFS 53 3.5.2 A CASE STUDY 57 3.6 PATTERNS OF CARBON TO WATER BALANCE IN NATURAL VEGETATION 60 3.6.1 USING ISOTOPE DISCRIMINATION TO STUDY WUE 60 3.6.2 DIFFERENCES IN WUE BETWEEN PLANT FUNCTIONAL TYPES 62 3.6.3 WUE ALONG ENVIRONMENTAL GRADIENTS 64 REFERENCES 66 4 WATER USE EFFICIENCY AND CHEMICAL SIGNALLING 75 SALLY WILKINSON 4.1 INTRODUCTION 75 4.1.1 DEFINITIONS 75 4.1.2 BACKGROUND TO CHEMICAL SIGNALLING 77 4.2 ABSCISIC ACID AND XYLEM SAP PH AS SIGNALS OF SOIL WATER AND NUTRIENT AVAILABILITY 80 4.2.1 EFFECTS OF ABA IN PLANTS 80 4.2.2 HOW THE ABA/PH SIGNAL WORKS 81 4.2.3 EVIDENCE FOR THE PH SIGNAL 85 4.2.4 PH AS A SIGNAL CONTROLLING FRUIT GROWTH 87 4.2.5 PH AS A SIGNAL OF SOIL FLOODING 88 4.2.6 PROPOSED MECHANISMS FOR THE PH CHANGE 90 4.2.7 ABA-CONJUGATES 93 4.3 ABSCISIC ACID AND XYLEM SAP PH AS SIGNALS OF CHANGES IN THE AERIAL ENVIRONMENT 94 4.4 OTHER CHEMICAL REGULATORS (CYTOKININS, ETHYLENE AND NITRATE) 98 4.4.1 ACC AND ETHYLENE 98 CONTENTS VLL 4.4.2 NITRATE 102 4.4.3 CYTOKININS 103 4.5 FACTORS AFFECTING STOMATAL RESPONSES TO CHEMICAL SIGNALS 104 4.6 CONCLUSIONS 107 REFERENCES 107 5 PHYSIOLOGICAL APPROACHES TO ENHANCE WATER USE EFFICIENCY IN AGRICULTURE: EXPLOITING PLANT SIGNALLING IN NOVEL IRRIGATION PRACTICE 113 B.R. LOVEYS, M. STOLL AND W.J. DA VIES 5.1 INTRODUCTION 113 5.2 UNDERSTANDING THE WAYS IN WHICH WUE CAN BE INFLUENCED 115 5.2.1 STOMATAL REGULATION OF GAS EXCHANGE 115 5.2.2 REGULATION OF PLANT DEVELOPMENT AND FUNCTIONING 116 5.3 REGULATED DEFICIT IRRIGATION (RDI) AND PARTIAL ROOTZONE DRYING (PRD) IRRIGATION 122 5.3.1 REGULATED DEFICIT IRRIGATION 122 5.3.2 PARTIAL ROOTZONE DRYING 125 ACKNOWLEDGEMENTS 138 REFERENCES 138 6 AGRONOMIC APPROACHES TO INCREASING WATER USE EFFICIENCY 142 PETER J. GREGORY 6.1 SUMMARY 142 6.2 INTRODUCTION 142 6.3 AGRONOMIC DEFINITIONS OF WATER USE EFFICIENCY 143 6.4 CROP AND GENOTYPE INFLUENCES ON TRANSPIRATION EFFICIENCY 145 6.5 MANAGEMENT OF WATER IN RAINFED CROP PRODUCTION 149 6.5.1 INCREASING T RELATIVE TO OTHER LOSSES 151 6.5.2 INCREASING THE TOTAL WATER SUPPLY 156 6.6 MANAGEMENT OF WATER IN IRRIGATED CROP PRODUCTION 159 6.7 INTERACTIONS BETWEEN SOILS, CLIMATE AND CROP MANAGEMENT 161 6.8 WUE AND TRADE-OFF ISSUES IN A WIDER CONTEXT 164 REFERENCES 167 7 PLANT NUTRITION AND WATER USE EFFICIENCY 171 JOHN A. RAVEN, LINDA L. HANDLEY AND BERND WOLLENWEBER 7.1 INTRODUCTION 171 7.2 DEFINING THE STATUS OF NUTRIENT ELEMENTS USED BY PLANTS 171 VIII CONTENTS 7.2.1 THE NUTRIENT ELEMENTS 171 7.2.2 SOURCES ON NUTRIENT ELEMENTS: SPATIAL ASPECTS 173 7.2.3 SOURCES OF NUTRIENT ELEMENTS: SPECIATION 173 7.2.4 SOURCES OF NUTRIENT ELEMENTS: DEFICIENCY AND EXCESS 175 7.3 THE OBSERVED EFFECTS ON WATER USE EFFICIENCY OF NUTRIENT ELEMENT DEFICIENCY AND EXCESS AND VARIATION IN NUTRIENT ELEMENT SOURCE 175 7.3.1 METHODOLOGICAL CONSIDERATIONS 175 7.3.2 OBSERVATIONS 176 7.4 WATER USE EFFICIENCY AND NUTRIENT AVAILABILITY TO (AND CONTENT IN) THE PLANT: MECHANISTIC CONSIDERATIONS 179 7.4.1 DOES NUTRIENT CONTENT RELATE TO WATER USE EFFICIENCY VIA EFFECTS OF WATER INFLUX ON SOLUTE INFLUX FROM THE SOIL SOLUTION? 179 7.4.2 STOMATAL CONDUCTANCE 181 7.4.3 BIOCHEMICAL CAPACITY FOR PHOTOSYNTHESIS 182 7.4.4 XYLEM CONDUCTANCE 183 7.4.5 ORGANIC CARBON LOSS 183 7.4.6 INORGANIC CARBON LOSS 184 7.5 THE EFFECT OF INTERACTIONS AMONG ORGANISMS ON NUTRITION AND ON WATER USE EFFICIENCY 184 7.5.1 SYMBIOSES 184 7.5.2 POPULATIONS 187 7.5.3 COMMUNITIES 187 7.5.4 AGRICULTURE 188 7.6 CONCLUSIONS 189 ACKNOWLEDGEMENTS 190 REFERENCES 190 8 CROP YIELD AND WATER USE EFFICIENCY: A CASE STUDY IN RICE 198 J1ANHUA ZHANG AND JIANCHANG YANG 8.1 WATER SHORTAGE IN CROP PRODUCTION: A GROWING CRISIS 198 8.2 WATER-SAVING CULTIVATION OF RICE: PROBLEMS AND POSSIBILITIES 199 8.3 A TRADE-OFF BETWEEN GRAIN YIELD AND WUE? 203 8.4 GRAIN FILLING: CONCURRENT PHOTOSYNTHESIS AND REMOBILIZATION OF PRE-STORED CARBON 204 8.5 PROBLEMS IN GRAIN FILLING 205 8.6 CONTROLLED SOIL DRYING TO PROMOTE WHOLE PLANT SENESCENCE AT GRAIN FILLING 206 8.7 PLANT HORMONES AND KEY ENZYMES IN THE ENHANCED REMOBILIZATION OF PRE-STORED RESERVE 218 8.8 CONCLUSIONS 222 CONTENTS IX ACKNOWLEDGEMENT 223 REFERENCES 223 9 MOLECULAR APPROACHES TO UNRAVEL THE GENETIC BASIS OF WATER USE EFFICIENCY 228 ROBERTO TUBEROSA 9.1 INTRODUCTION 228 9.2 TARGET TRAITS INFLUENCING WUE 229 9.2.1 CARBON ISOTOPE DISCRIMINATION 231 9.2.2 STOMATAL CONDUCTANCE 232 9.2.3 CANOPY TEMPERATURE 234 9.2.4 ABSCISIC ACID 234 9.2.5 WATER POTENTIAL AND RELATIVE WATER CONTENT OF THE LEAF 236 9.2.6 OSMOTIC ADJUSTMENT 236 9.2.7 ROOT TRAITS 237 9.2.8 EARLY VIGOUR AND FLOWERING TIME 238 9.3 QTLS FOR WUE AND RELATED TRAITS IN CROPS 240 9.3.1 THE QTL APPROACH: WHERE GENETICS, CROP PHYSIOLOGY AND BREEDING MEET 240 9.3.2 CASE STUDIES IN DICOTS 244 9.3.3 CASE STUDIES IN CEREALS 247 9.4 WHAT CAN WE LEARN THROUGH THE OMICS APPROACH? 256 9.4.1 TRANSCRIPOME ANALYSIS 257 9.4.2 PROTEOMICS AND METABOLOMICS 260 9.5 FROM QTLS TO GENES FOR WUE AND RELATED TRAITS 263 9.5.1 POSITIONAL CLONING 264 9.5.2 THE CANDIDATE GENE APPROACH 264 9.6 CONVENTIONAL AND MOLECULAR APPROACHES TO IMPROVE WUE AND DROUGHT TOLERANCE 267 9.6.1 EMPIRICAL VS. ANALYTICAL BREEDING 268 9.6.2 MARKER-ASSISTED SELECTION 269 9.6.3 GENETIC ENGINEERING 273 9.7 CONCLUSIONS R 279 REFERENCES 282 10 WATER USE EFFICIENCY IN THE FARMERS FIELDS 302 JOHN PASSIOURA 10.1 INTRODUCTION 302 10.2 WUE ON FARM 303 10.3 ACCESSING MORE OF THE WATER SUPPLY 307 X CONTENTS 10.3.1 CANOPY DEVELOPMENT TO REDUCE EVAPORATIVE LOSSES FROM THE SOIL 307 10.3.2 REDUCING LOSSES OF WATER BY DEEP DRAINAGE 310, 10.4 IMPROVING TRANSPIRATION EFFICIENCY, THE EXCHANGE OF WATER FORCO 2 312 10.5 CONVERTING BIOMASS INTO GRAIN 313 10.5.1 ADAPTING PHENOLOGY TO ENVIRONMENT 313 10.5.2 EFFECTS OF DROUGHT ON FERTILITY 315 10.5.3 MOBILISING PRE-ANTHESIS RESERVES DURING GRAIN FILLING 316 10.6 THE IMPACT OF SPATIAL VARIABILITY 317 10.7 CONCLUDING COMMENTS 317 ACKNOWLEDGEMENTS 318 REFERENCES 318 INDEX 322
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id	DE-604.BV019689554
illustrated	Illustrated
indexdate	2024-07-09T20:03:53Z
institution	BVB
isbn	1405114347 0849323541
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-013017391
oclc_num	53459437
open_access_boolean
owner	DE-M49 DE-BY-TUM DE-703 DE-11
owner_facet	DE-M49 DE-BY-TUM DE-703 DE-11
physical	XIV, 327 S. graph. Darst.
publishDate	2004
publishDateSearch	2004
publishDateSort	2004
publisher	Blackwell Publ. CRC Pr.
record_format	marc
series2	Biological sciences series
spelling	Water use efficiency in plant biology ed. by Mark A. Bacon 1. publ. Oxford [u.a.] Blackwell Publ. 2004 Boca Raton, Fla. [u.a.] CRC Pr. XIV, 327 S. graph. Darst. txt rdacontent n rdamedia nc rdacarrier Biological sciences series Physiologie végétale Plantes - Absorption de l'eau Plantes - Transpiration Relations plante-eau Plant physiology Plant-water relationships Plants Absorption of water Plants Transpiration Effizienz (DE-588)4013585-8 gnd rswk-swf Wassernutzung (DE-588)4138608-5 gnd rswk-swf Ernteertrag (DE-588)4015358-7 gnd rswk-swf Wasserversorgung (DE-588)4064811-4 gnd rswk-swf Nutzpflanzen (DE-588)4042838-2 gnd rswk-swf Wasserhaushalt (DE-588)4064734-1 gnd rswk-swf Wasserbedarf (DE-588)4124436-9 gnd rswk-swf Ertragsbildung (DE-588)4349389-0 gnd rswk-swf Pflanzen (DE-588)4045539-7 gnd rswk-swf Kulturpflanzen (DE-588)4033576-8 gnd rswk-swf Pflanzen (DE-588)4045539-7 s Wasserhaushalt (DE-588)4064734-1 s DE-604 Wassernutzung (DE-588)4138608-5 s Effizienz (DE-588)4013585-8 s Nutzpflanzen (DE-588)4042838-2 s Ertragsbildung (DE-588)4349389-0 s Wasserbedarf (DE-588)4124436-9 s Kulturpflanzen (DE-588)4033576-8 s Ernteertrag (DE-588)4015358-7 s Wasserversorgung (DE-588)4064811-4 s b DE-604 Bacon, Mark A. Sonstige oth HEBIS Datenaustausch Darmstadt application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=013017391&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Water use efficiency in plant biology Physiologie végétale Plantes - Absorption de l'eau Plantes - Transpiration Relations plante-eau Plant physiology Plant-water relationships Plants Absorption of water Plants Transpiration Effizienz (DE-588)4013585-8 gnd Wassernutzung (DE-588)4138608-5 gnd Ernteertrag (DE-588)4015358-7 gnd Wasserversorgung (DE-588)4064811-4 gnd Nutzpflanzen (DE-588)4042838-2 gnd Wasserhaushalt (DE-588)4064734-1 gnd Wasserbedarf (DE-588)4124436-9 gnd Ertragsbildung (DE-588)4349389-0 gnd Pflanzen (DE-588)4045539-7 gnd Kulturpflanzen (DE-588)4033576-8 gnd
subject_GND	(DE-588)4013585-8 (DE-588)4138608-5 (DE-588)4015358-7 (DE-588)4064811-4 (DE-588)4042838-2 (DE-588)4064734-1 (DE-588)4124436-9 (DE-588)4349389-0 (DE-588)4045539-7 (DE-588)4033576-8
title	Water use efficiency in plant biology
title_auth	Water use efficiency in plant biology
title_exact_search	Water use efficiency in plant biology
title_full	Water use efficiency in plant biology ed. by Mark A. Bacon
title_fullStr	Water use efficiency in plant biology ed. by Mark A. Bacon
title_full_unstemmed	Water use efficiency in plant biology ed. by Mark A. Bacon
title_short	Water use efficiency in plant biology
title_sort	water use efficiency in plant biology
topic	Physiologie végétale Plantes - Absorption de l'eau Plantes - Transpiration Relations plante-eau Plant physiology Plant-water relationships Plants Absorption of water Plants Transpiration Effizienz (DE-588)4013585-8 gnd Wassernutzung (DE-588)4138608-5 gnd Ernteertrag (DE-588)4015358-7 gnd Wasserversorgung (DE-588)4064811-4 gnd Nutzpflanzen (DE-588)4042838-2 gnd Wasserhaushalt (DE-588)4064734-1 gnd Wasserbedarf (DE-588)4124436-9 gnd Ertragsbildung (DE-588)4349389-0 gnd Pflanzen (DE-588)4045539-7 gnd Kulturpflanzen (DE-588)4033576-8 gnd
topic_facet	Physiologie végétale Plantes - Absorption de l'eau Plantes - Transpiration Relations plante-eau Plant physiology Plant-water relationships Plants Absorption of water Plants Transpiration Effizienz Wassernutzung Ernteertrag Wasserversorgung Nutzpflanzen Wasserhaushalt Wasserbedarf Ertragsbildung Pflanzen Kulturpflanzen
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=013017391&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT baconmarka wateruseefficiencyinplantbiology

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